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Complement test for MMIO framework
The run script 'run/util_mmio.run' runs a test over basic functionalities of 'Mmio::Register' and 'Mmio::Register::Subreg'. The test covers the functions 'read' and 'bits', 'set', 'clear' and 'get'. Inline function in 'Mmio::Register::Subreg' whose definition otherwise looks ugly.
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@ -4,6 +4,13 @@
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* \date 2011-10-26
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*/
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/*
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* Copyright (C) 2011-2012 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU General Public License version 2.
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*/
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#ifndef _BASE__INCLUDE__UTIL__MMIO_H_
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#define _BASE__INCLUDE__UTIL__MMIO_H_
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@ -87,8 +94,14 @@ namespace Genode
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* Calculate the MMIO-relative offset 'offset' and shift 'shift'
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* within the according 'storage_t' value to acces subreg no. 'index'
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*/
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inline static void access_dest(off_t & offset, unsigned long & shift,
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unsigned long const index);
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static void access_dest(off_t & offset, unsigned long & shift,
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unsigned long const index)
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{
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unsigned long const bit_off = (index+1) * ITERATION_WIDTH - WIDTH;
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offset = (off_t) ((bit_off / STORAGE_WIDTH) * sizeof(STORAGE_T));
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shift = bit_off - ( offset << BYTE_EXP );
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offset += Compound_reg::OFFSET;
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}
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};
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};
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@ -166,20 +179,6 @@ namespace Genode
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}
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template <Genode::off_t OFFSET, typename STORAGE_T>
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template <unsigned long BIT_SHIFT, unsigned long BIT_SIZE, unsigned long SUBREGS>
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void
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Genode::Mmio::Register<OFFSET, STORAGE_T>::Subreg_array<BIT_SHIFT, BIT_SIZE, SUBREGS>::access_dest(Genode::off_t & offset,
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unsigned long & shift,
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unsigned long const index)
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{
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unsigned long const bit_off = (index+1) * ITERATION_WIDTH - WIDTH;
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offset = (off_t) ((bit_off / STORAGE_WIDTH) * sizeof(STORAGE_T));
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shift = bit_off - ( offset << BYTE_EXP );
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offset += Compound_reg::OFFSET;
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}
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template <typename STORAGE_T>
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void Genode::Mmio::_write(off_t const o, STORAGE_T const value)
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{
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@ -4,6 +4,13 @@
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* \date 2011-11-10
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*/
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/*
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* Copyright (C) 2011-2012 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU General Public License version 2.
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*/
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#ifndef _BASE__INCLUDE__UTIL__REGISTER_H_
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#define _BASE__INCLUDE__UTIL__REGISTER_H_
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@ -37,32 +44,34 @@ namespace Genode
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typedef Register<storage_t> Compound_reg;
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/**
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* Get a register value with this subreg set to 'value'
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* and the rest left zero
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* Get a register value with this subreg set to 'value' and the rest left zero
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*
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* \detail Useful to combine successive access to multiple subregs
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* into one operation
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*/
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static storage_t bits(storage_t const value) { return (value & MASK) << SHIFT; }
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/**
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* Get value of this subreg from 'reg'
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*/
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static storage_t value(storage_t const reg) { return (reg >> SHIFT) & MASK; }
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static storage_t get(storage_t const reg) { return (reg >> SHIFT) & MASK; }
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/**
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* Get registervalue 'reg' with this subreg set to zero
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*/
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static void clear_bits(storage_t & reg) { reg &= ~(MASK << SHIFT); }
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static void clear(storage_t & reg) { reg &= ~(MASK << SHIFT); }
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/**
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* Get registervalue 'reg' with this subreg set to 'value'
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*/
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static void set_bits(storage_t & reg, storage_t const value = ~0)
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static void set(storage_t & reg, storage_t const value = ~0)
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{
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clear_bits(reg);
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clear(reg);
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reg |= (value & MASK) << SHIFT;
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};
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};
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};
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}
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#endif /* _BASE__INCLUDE__UTIL__CPU_REGISTER_H_ */
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#endif /* _BASE__INCLUDE__UTIL__REGISTER_H_ */
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35
base/run/util_mmio.run
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35
base/run/util_mmio.run
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@ -0,0 +1,35 @@
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build "core init test/util_mmio"
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create_boot_directory
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install_config {
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<config>
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<parent-provides>
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<service name="ROM"/>
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<service name="RAM"/>
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<service name="CPU"/>
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<service name="RM"/>
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<service name="CAP"/>
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<service name="PD"/>
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<service name="LOG"/>
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</parent-provides>
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<default-route>
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<any-service> <parent/> </any-service>
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</default-route>
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<start name="test-util_mmio">
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<resource name="RAM" quantum="10M"/>
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</start>
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</config>
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}
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build_boot_image "core init test-util_mmio"
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append qemu_args "-nographic -m 64"
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run_genode_until {.*Test ended.*} 10
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grep_output {\[init -\> test-util_mmio\]}
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compare_output_to {
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[init -> test-util_mmio] Test ended successfully
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}
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@ -1,6 +1,7 @@
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/*
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* \brief Basic test for MMIO access framework
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* \author Christian Helmuth
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* \author Martin Stein
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* \date 2012-01-09
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*/
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@ -12,8 +13,265 @@
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*/
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#include <util/mmio.h>
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#include <base/printf.h>
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using namespace Genode;
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/**
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* Assume this one is a cpu register, accessed by special ops
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*/
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static uint16_t cpu_state;
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/**
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* Assume this is a MMIO region
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*/
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enum{ MMIO_SIZE = 8 };
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static uint8_t mmio_mem[MMIO_SIZE];
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/**
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* Exemplary highly structured type for accessing 'cpu_state'
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*/
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struct Cpu_state : Register<uint16_t>
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{
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struct Mode : Subreg<0,4>
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{
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enum {
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KERNEL = 0b1000,
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USER = 0b1001,
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MONITOR = 0b1010,
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};
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};
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struct A : Subreg<6,1> { };
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struct B : Subreg<8,1> { };
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struct C : Subreg<10,1> { };
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struct Irq : Subreg<12,3> { };
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struct Invalid_bit : Subreg<18,1> { };
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struct Invalid_area : Subreg<15,4> { };
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inline static storage_t read() { return cpu_state; }
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inline static void write(storage_t & v) { cpu_state = v; }
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};
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/**
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* Exemplary MMIO region type
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*/
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struct Test_mmio : public Mmio
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{
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Test_mmio(addr_t const base) : Mmio(base) { }
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struct Reg : Register<0x04, uint8_t>
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{
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struct Bit_1 : Subreg<0,1> { };
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struct Area : Subreg<1,3>
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{
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enum {
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VALUE_1 = 3,
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VALUE_2 = 4,
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VALUE_3 = 5,
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};
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};
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struct Bit_2 : Subreg<4,1> { };
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struct Invalid_bit : Subreg<8,1> { };
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struct Invalid_area : Subreg<6,8> { };
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struct Overlapping_area : Subreg<0,6> { };
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};
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};
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/**
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* Print out memory content hexadecimal
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*/
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void dump_mem(uint8_t * base, size_t size)
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{
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addr_t top = (addr_t)base + size;
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for(; (addr_t)base < top;) {
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printf("%2X ", *(uint8_t *)base);
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base = (uint8_t *)((addr_t)base + sizeof(uint8_t));
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}
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}
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/**
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* Zero-fill memory region
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*/
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void zero_mem(uint8_t * base, size_t size)
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{
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addr_t top = (addr_t)base + size;
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for(; (addr_t)base < top;) {
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*base = 0;
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base = (uint8_t *)((addr_t)base + sizeof(uint8_t));
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}
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}
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/**
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* Compare content of two memory regions
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*/
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int compare_mem(uint8_t * base1, uint8_t * base2, size_t size)
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{
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addr_t top = (addr_t)base1 + size;
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for(; (addr_t)base1 < top;) {
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if(*base1 != *base2) return -1;
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base1 = (uint8_t *)((addr_t)base1 + sizeof(uint8_t));
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base2 = (uint8_t *)((addr_t)base2 + sizeof(uint8_t));
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}
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return 0;
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}
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/**
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* End a failed test
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*/
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int test_failed(unsigned test_id)
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{
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PERR("Test ended, test %i failed", test_id);
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printf(" mmio_mem: 0x ");
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dump_mem(mmio_mem, sizeof(mmio_mem));
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printf("\n cpu_state: 0x%4X\n", cpu_state);
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return -1;
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}
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int main()
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{
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/**********************************
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** Genode::Mmio::Register tests **
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**********************************/
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/**
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* Init fake MMIO
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*/
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Test_mmio mmio((addr_t)&mmio_mem[0]);
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/**
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* Test 1, read/write whole reg, use 'Subreg::bits' with overflowing values
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*/
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zero_mem(mmio_mem, sizeof(mmio_mem));
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mmio.write<Test_mmio::Reg>(Test_mmio::Reg::Bit_1::bits(7) |
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Test_mmio::Reg::Area::bits(10) |
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Test_mmio::Reg::Bit_2::bits(9) );
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static uint8_t mmio_cmpr_1[MMIO_SIZE] = {0,0,0,0,0b00010101,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_1, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg>() != 0x15)
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{ return test_failed(1); }
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/**
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* Test 2, read/write bit appropriately
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*/
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zero_mem(mmio_mem, sizeof(mmio_mem));
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mmio.write<Test_mmio::Reg::Bit_1>(1);
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static uint8_t mmio_cmpr_2[MMIO_SIZE] = {0,0,0,0,0b00000001,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_2, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Bit_1>() != 1)
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{ return test_failed(2); }
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/**
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* Test 3, read/write bit overflowing
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*/
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mmio.write<Test_mmio::Reg::Bit_2>(0xff);
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static uint8_t mmio_cmpr_3[MMIO_SIZE] = {0,0,0,0,0b00010001,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_3, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Bit_2>() != 1)
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{ return test_failed(3); }
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/**
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* Test 4, read/write bitarea appropriately
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*/
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mmio.write<Test_mmio::Reg::Area>(Test_mmio::Reg::Area::VALUE_3);
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static uint8_t mmio_cmpr_4[MMIO_SIZE] = {0,0,0,0,0b00011011,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_4, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Area>() != Test_mmio::Reg::Area::VALUE_3)
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{ return test_failed(4); }
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/**
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* Test 5, read/write bitarea overflowing
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*/
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zero_mem(mmio_mem, sizeof(mmio_mem));
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mmio.write<Test_mmio::Reg::Area>(0b11111101);
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static uint8_t mmio_cmpr_5[MMIO_SIZE] = {0,0,0,0,0b00001010,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_5, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Area>() != 0b101)
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{ return test_failed(5); }
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/**
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* Test 6, read/write bit out of regrange
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*/
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mmio.write<Test_mmio::Reg::Invalid_bit>(1);
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if (compare_mem(mmio_mem, mmio_cmpr_5, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Invalid_bit>() != 0)
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{ return test_failed(6); }
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/**
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* Test 7, read/write bitarea that exceeds regrange
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*/
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mmio.write<Test_mmio::Reg::Invalid_area>(0xff);
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static uint8_t mmio_cmpr_7[MMIO_SIZE] = {0,0,0,0,0b11001010,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_7, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Invalid_area>() != 0b11)
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{ return test_failed(7); }
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/**
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* Test 8, read/write bitarea that overlaps other subregs
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*/
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mmio.write<Test_mmio::Reg::Overlapping_area>(0b00110011);
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static uint8_t mmio_cmpr_8[MMIO_SIZE] = {0,0,0,0,0b11110011,0,0,0};
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if (compare_mem(mmio_mem, mmio_cmpr_8, sizeof(mmio_mem)) ||
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mmio.read<Test_mmio::Reg::Overlapping_area>() != 0b110011)
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{ return test_failed(8); }
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/****************************
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** Genode::Register tests **
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****************************/
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/**
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* Test 9, read/write subregs appropriately, overflowing and out of range
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*/
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Cpu_state::storage_t state = Cpu_state::read();
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Cpu_state::Mode::set(state, Cpu_state::Mode::MONITOR);
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Cpu_state::A::set(state, 1);
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Cpu_state::B::set(state);
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Cpu_state::C::set(state, 0xdddd);
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Cpu_state::Irq::set(state, 0xdddd);
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Cpu_state::Invalid_bit::set(state, 0xdddd);
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Cpu_state::Invalid_area::set(state, 0xdddd);
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Cpu_state::write(state);
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state = Cpu_state::read();
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if (cpu_state != 0b1101010101001010
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|| Cpu_state::Mode::get(state) != Cpu_state::Mode::MONITOR
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|| Cpu_state::A::get(state) != 1
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|| Cpu_state::B::get(state) != 1
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|| Cpu_state::C::get(state) != 1
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|| Cpu_state::Irq::get(state) != 0b101
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|| Cpu_state::Invalid_bit::get(state) != 0
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|| Cpu_state::Invalid_area::get(state) != 1)
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{ return test_failed(9); }
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/**
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* Test 10, clear subregs
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*/
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Cpu_state::B::clear(state);
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Cpu_state::Irq::clear(state);
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Cpu_state::write(state);
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state = Cpu_state::read();
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if (cpu_state != 0b1000010001001010
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|| Cpu_state::B::get(state) != 0
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|| Cpu_state::Irq::get(state) != 0)
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{ return test_failed(10); }
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printf("Test ended successfully\n");
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return 0;
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}
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